Technological Innovation

Integrated Business Model

From R&D and project management consulting to membrane manufacturing and sales, process design, Engineering-Procurement-Construction (EPC) and water plant operations, we deliver one-stop water solutions.

PPP (Public-Private Partnership)/BOT (Build-Operate-Transfer)
EPC (Engineering, Procurement, Construction)
System & membrane product sales
Project consulting and management
Water plant operation and maintenance

Advanced Membrane Technologies and Equipment

Full-cycle services for membrane separation technologies: R&D (HVM membrane + ultrafiltration membrane), manufacturing, sales, installation, commissioning and technical support.

HVM membrane product technology: HVM membrane components, HVM membrane installation, HVM membrane application
HVM membrane features: uniform micropores for precision surface filtration; seamless monolithic structure resistant to cracking/peeling; chemical resistance (acids, alkalis, oxidants) with high-temperature tolerance; non-adhesive surface for easy cleaning and high-efficiency operation; high mechanical strength for extended service lifespan
Ultrafiltration membrane technology: polymer hollow fiber membrane - effective removal of suspended solids/colloids; compatible with reverse osmosis pretreatment; hollow fiber MBR membrane - effective treatment of high-SS, high-COD, high-salinity wastewater with minimal pretreatment

AI-Driven Digital Operations

IoT/3D modeling/simulation algorithms + big data/machine learning

Data collection and integration: comprehensive and accurate data collection
Real-time water quality monitoring: continuous water quality compliance assurance
Risk prevention: predictive maintenance for operational safety
Smart decision and optimization: AI-generated decision support
AI-driven interaction and visualization : rich interactive functions and intuitive data dashboards
Al+ big data: core platform for intelligent water plants

Hybrid Energy Solutions

Cost-efficient emerging clean energy technologies for desalination projects: gentle wind power; potential energy power generation; high-frequency molecular power generation

Compact design: minimal land footprint
High efficiency: extended generation periods with optimized conversion
Low investment: rapid deployment and eco-friendly installation
High ROI: scalable energy output with long-term returns

Comprehensive Utilization of RO Brine

Resource Recovery from RO Brine

Seawater desalination generates significant amounts of reverse osmosis (RO) brine. Currently, the majority of desalination plants worldwide discharge this RO brine directly back into the ocean, a practice that not only causes marine pollution but also wastes valuable chemical resources present in the brine. In China, some desalination plants redirect RO brine to salt fields, though this method requires substantial land resources and is limited by natural conditions.
The adopts membrane separation and evaporation technology for resources utilization of the seawater RO brine, which can be separated, concentrated and crystallized as resources of raw material of two alkalis (soda ash and caustic soda) industry.
We are exploring new technology and applications of seawater RO brine power generation and hydrogen production.